Thermally stable CGC perpendicular recording media with Pt-rich CoPtCr and thin Pt layers

Y. Sonobe; H. Muraoka; K. Miura; Y. Nakamura; K. Takano; A. Moser; H. Do; B. K. Yen; Y. Ikeda; N. Supper; W. Weresin

doi:10.1109/TMAG.2002.801810

Thermally stable CGC perpendicular recording media with Pt-rich CoPtCr and thin Pt layers

Y. Sonobe^*, H. Muraoka, K. Miura, Y. Nakamura, K. Takano, A. Moser, H. Do, B. K. Yen, Y. Ikeda, N. Supper, W. Weresin

^*この研究の対応する著者

研究成果: Conference article › 査読

39 被引用数 (Scopus)

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Thermal stability of coupled granular/continuous (CGC) perpendicular media is supported by fundamental modeling and experimental results, including spin-stand testing. By incorporating the interlayer exchange coupling into the model, the simulation result suggests that the CGC structure is capable of achieving the energy barrier of K_uV/k_B T required for 1 Tbit/in² recording density. To demonstrate the CGC approach, we investigate a new class of CGC perpendicular media consisting of a Pt-rich CoPtCr layer with poor Co-Cr phase segregation and a thin Pt layer. The addition of these layers improves the nucleation field of the CoCr₁₈Pt₁₂ medium from +420 to -600 Oe and the thermal decay of the output is reduced from 2.23% to 0.10% per decade. Unity squareness was obtained by using a thin Pt capping layer and resulted in a small decay rate of 0.21% per decade. The new CGC media showed no degradation of SNR compared to the base granular medium. Similar to CGC media utilizing a multilayer capping structure, the CGC medium with a Pt-rich CoPtCr or Pt capping structure improved the thermal stability without compromising SNR. The simplicity of these new CGC structures also greatly simplifies the deposition process.

本文言語	English
ページ（範囲）	2006-2011
ページ数	6
ジャーナル	IEEE Transactions on Magnetics
巻	38
号	5 I
DOI	https://doi.org/10.1109/TMAG.2002.801810
出版ステータス	Published - 2002 9月
外部発表	はい
イベント	2002 International Magnetics Conference (Intermag 2002) - Amsterdam, Netherlands 継続期間: 2002 4月 28 → 2002 5月 2

ASJC Scopus subject areas

電子材料、光学材料、および磁性材料
電子工学および電気工学

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10.1109/TMAG.2002.801810

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title = "Thermally stable CGC perpendicular recording media with Pt-rich CoPtCr and thin Pt layers",

abstract = "Thermal stability of coupled granular/continuous (CGC) perpendicular media is supported by fundamental modeling and experimental results, including spin-stand testing. By incorporating the interlayer exchange coupling into the model, the simulation result suggests that the CGC structure is capable of achieving the energy barrier of KuV/kB T required for 1 Tbit/in2 recording density. To demonstrate the CGC approach, we investigate a new class of CGC perpendicular media consisting of a Pt-rich CoPtCr layer with poor Co-Cr phase segregation and a thin Pt layer. The addition of these layers improves the nucleation field of the CoCr18Pt12 medium from +420 to -600 Oe and the thermal decay of the output is reduced from 2.23% to 0.10% per decade. Unity squareness was obtained by using a thin Pt capping layer and resulted in a small decay rate of 0.21% per decade. The new CGC media showed no degradation of SNR compared to the base granular medium. Similar to CGC media utilizing a multilayer capping structure, the CGC medium with a Pt-rich CoPtCr or Pt capping structure improved the thermal stability without compromising SNR. The simplicity of these new CGC structures also greatly simplifies the deposition process.",

keywords = "Continuous layer, Granular layer, Perpendicular media, Pt layer, Signal-to-noise ratio, Thermal stability",

author = "Y. Sonobe and H. Muraoka and K. Miura and Y. Nakamura and K. Takano and A. Moser and H. Do and Yen, {B. K.} and Y. Ikeda and N. Supper and W. Weresin",

year = "2002",

month = sep,

doi = "10.1109/TMAG.2002.801810",

language = "English",

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publisher = "Institute of Electrical and Electronics Engineers Inc.",

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note = "2002 International Magnetics Conference (Intermag 2002) ; Conference date: 28-04-2002 Through 02-05-2002",

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TY - JOUR

T1 - Thermally stable CGC perpendicular recording media with Pt-rich CoPtCr and thin Pt layers

AU - Sonobe, Y.

AU - Muraoka, H.

AU - Miura, K.

AU - Nakamura, Y.

AU - Takano, K.

AU - Moser, A.

AU - Do, H.

AU - Yen, B. K.

AU - Ikeda, Y.

AU - Supper, N.

AU - Weresin, W.

PY - 2002/9

Y1 - 2002/9

N2 - Thermal stability of coupled granular/continuous (CGC) perpendicular media is supported by fundamental modeling and experimental results, including spin-stand testing. By incorporating the interlayer exchange coupling into the model, the simulation result suggests that the CGC structure is capable of achieving the energy barrier of KuV/kB T required for 1 Tbit/in2 recording density. To demonstrate the CGC approach, we investigate a new class of CGC perpendicular media consisting of a Pt-rich CoPtCr layer with poor Co-Cr phase segregation and a thin Pt layer. The addition of these layers improves the nucleation field of the CoCr18Pt12 medium from +420 to -600 Oe and the thermal decay of the output is reduced from 2.23% to 0.10% per decade. Unity squareness was obtained by using a thin Pt capping layer and resulted in a small decay rate of 0.21% per decade. The new CGC media showed no degradation of SNR compared to the base granular medium. Similar to CGC media utilizing a multilayer capping structure, the CGC medium with a Pt-rich CoPtCr or Pt capping structure improved the thermal stability without compromising SNR. The simplicity of these new CGC structures also greatly simplifies the deposition process.

AB - Thermal stability of coupled granular/continuous (CGC) perpendicular media is supported by fundamental modeling and experimental results, including spin-stand testing. By incorporating the interlayer exchange coupling into the model, the simulation result suggests that the CGC structure is capable of achieving the energy barrier of KuV/kB T required for 1 Tbit/in2 recording density. To demonstrate the CGC approach, we investigate a new class of CGC perpendicular media consisting of a Pt-rich CoPtCr layer with poor Co-Cr phase segregation and a thin Pt layer. The addition of these layers improves the nucleation field of the CoCr18Pt12 medium from +420 to -600 Oe and the thermal decay of the output is reduced from 2.23% to 0.10% per decade. Unity squareness was obtained by using a thin Pt capping layer and resulted in a small decay rate of 0.21% per decade. The new CGC media showed no degradation of SNR compared to the base granular medium. Similar to CGC media utilizing a multilayer capping structure, the CGC medium with a Pt-rich CoPtCr or Pt capping structure improved the thermal stability without compromising SNR. The simplicity of these new CGC structures also greatly simplifies the deposition process.

KW - Continuous layer

KW - Granular layer

KW - Perpendicular media

KW - Pt layer

KW - Signal-to-noise ratio

KW - Thermal stability

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DO - 10.1109/TMAG.2002.801810

M3 - Conference article

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VL - 38

SP - 2006

EP - 2011

JO - IEEE Transactions on Magnetics

JF - IEEE Transactions on Magnetics

SN - 0018-9464

IS - 5 I

T2 - 2002 International Magnetics Conference (Intermag 2002)

Y2 - 28 April 2002 through 2 May 2002

ER -

Thermally stable CGC perpendicular recording media with Pt-rich CoPtCr and thin Pt layers

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